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Congjie Gao
Researcher at Zhejiang University of Technology
Publications - 454
Citations - 21728
Congjie Gao is an academic researcher from Zhejiang University of Technology. The author has contributed to research in topics: Membrane & Nanofiltration. The author has an hindex of 67, co-authored 436 publications receiving 15893 citations. Previous affiliations of Congjie Gao include Zhejiang University & Chinese Ministry of Education.
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Improving the performance of polyamide reverse osmosis membrane by incorporation of modified multi-walled carbon nanotubes
TL;DR: In this paper, carboxy-functionalized multi-walled carbon nanotubes (MWNTs) were pre-treated with mixed acids before being modified with diisobutyryl peroxide to enhance their dispersivity and chemical activity.
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Preparation and properties of functionalized carbon nanotube/PSF blend ultrafiltration membranes
TL;DR: In this paper, multi-walled carbon nanotubes (MWNTs) functionalized by isocyanate and isophthaloyl chloride groups were synthesized via the reaction between carboxylated carbon Nanotubes and 5-isocyanato-isophthoric chloride (ICICIC).
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High-Flux Positively Charged Nanocomposite Nanofiltration Membranes Filled with Poly(dopamine) Modified Multiwall Carbon Nanotubes
TL;DR: High-flux positively charged nanocomposite nanofiltration membranes were exploited by uniformly embedding poly(dopamine) modified multiwall carbon nanotubes (PDA-MWCNTs) in polyamide thin-film composite membranes, leading to significantly improved water permeability.
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Antifouling membrane surface construction: Chemistry plays a critical role
TL;DR: This review will highlight the recent progress in antifouling membrane surface construction with a focus on five promising classes of chemistries: bioinspired adhesion chemistry, supramolecular chemistry, mineralization chemistry, click chemistry and coupling chemistry.
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Effect of PEG additive on the morphology and performance of polysulfone ultrafiltration membranes
TL;DR: In this article, the performance of asymmetric polysulfone membranes was evaluated in terms of pure water flux (PWF), protein rejection, porosity, contact angle, tensile strength, and elongation at break.